Functional analysis of neural crest & palate: Imaging craniofacial development

神经嵴功能分析

基本信息

批准号：
7935339
负责人：
SCOTT E FRASER
金额：
$ 75.35万
依托单位：
CALIFORNIA INSTITUTE OF TECHNOLOGY
依托单位国家：
美国
项目类别：
财政年份：
2009
资助国家：
美国
起止时间：
2009-09-21 至 2014-04-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7935339
关键词：
3-Dimensional Affect Anatomy Atlases Birds California Cells Cleft Palate Cleft lip with or without cleft palate Collaborations Communities Congenital Abnormality Data Development Embryo Event Face Gene Expression Genes Goals Image Imaging Device Individual Laboratories Life Light Link Live Birth Magnetic Resonance Imaging Microscopic Microscopy Modeling Molecular Morphology Movement Mus Neural Crest Normal tissue morphology Palate Pattern Phenotype Preparation Principal Investigator Proteins Quail Research Research Personnel Resources Role Signal Pathway Signal Transduction Slice Specialist Staging Structure System Techniques Technology Testing Therapeutic Three-Dimensional Image Three-Dimensional Imaging Tissues Transgenic Mice Transgenic Organisms Universities Work Yang base craniofacial data acquisition knock-down meetings member molecular imaging mutant public health relevance research study three dimensional structure tool

项目摘要

DESCRIPTION (provided by applicant): The research plan will refine and deploy a set of advanced tools for the imaging of tissue structure, gene expression domains and cellular dynamics during craniofacial development. Volumetric imaging tools will be used td create accurate 3D atlases that can be digitally dissected to permit the tissue interactions and cellular events to be better understood in the forming faces of normal, mutant and perturbed mouse and avian embryos. Molecular imaging agents, optimized for imaging intact tissues, will be employed to create atlases of the molecular correlates of these embryos. Finally, intraviral imaging tools will be used to study cell and tissue interactions as they take place, offering a view into the dynamic events that execute craniofacial development. The data will be assembled into atlases that will offer unprecedented tools for exploring the cellular, tissue and molecular correlates of craniofacial development. These atlases will be made widely available for the use of others in the Face Base consortium and the broader community of craniofacial researchers through an online resource created locally. In addition, they will be linked to other Face Base resources through established hubs, so that the data in our atlases can be used in concert with the molecular and structural data provided by other members of the consortium. The data acquisition pipeline established here in close collaboration with the laboratories of Dr. Yang Chai (University of Southern California) and Dr. Marianne Bronner-Fraser (Caltech) will create a model that can be expanded to phenotype and analyze other experimental systems. PUBLIC HEALTH RELEVANCE: Cleft palate, with or without cleft lip. is one of the more common birth defects, affecting approximately one in 2500 live births. The basic events by which cells of different origin come together to form the face have long been known, but the exact tissue movements and the signals that guide them remain undefined. The goal of this work is to help fill this void by imaging the morphology of normal craniofacial development, the abnormal development seen in cleft palate, and providing a means to experimentally test the roles of signaling pathways in the tissue interactions that build the face. This work offers a powerful platform for devising and testing potential therapeutic approaches.

描述（由申请人提供）：该研究计划将完善和部署一套先进的工具，用于颅面发育过程中组织结构、基因表达域和细胞动力学的成像。体积成像工具将用于创建精确的 3D 图集，这些图集可以进行数字化解剖，以便更好地理解正常、突变和受干扰的小鼠和鸟类胚胎的形成过程中的组织相互作用和细胞事件。针对完整组织成像进行优化的分子成像剂将用于创建这些胚胎的分子相关物图谱。最后，病毒内成像工具将用于研究细胞和组织相互作用的发生，从而提供执行颅面发育的动态事件的视图。这些数据将被汇总成地图集，为探索颅面发育的细胞、组织和分子相关性提供前所未有的工具。这些地图集将通过本地创建的在线资源广泛提供给 Face Base 联盟的其他人以及更广泛的颅面研究人员社区使用。此外，它们将通过已建立的中心链接到其他 Face Base 资源，以便我们图集中的数据可以与联盟其他成员提供的分子和结构数据结合使用。与 Yang Chai 博士（南加州大学）和 Marianne Bronner-Fraser 博士（加州理工学院）实验室密切合作建立的数据采集管道将创建一个可以扩展到表型和分析其他实验系统的模型。公共卫生相关性：腭裂，伴或不伴唇裂。是较常见的出生缺陷之一，大约影响每 2500 个活产儿中就有一个。不同来源的细胞聚集在一起形成面部的基本事件早已为人所知，但确切的组织运动和引导它们的信号仍不清楚。这项工作的目标是通过对正常颅面发育的形态、腭裂中观察到的异常发育进行成像，并提供一种方法来通过实验测试信号通路在构建面部的组织相互作用中的作用，从而帮助填补这一空白。这项工作为设计和测试潜在的治疗方法提供了一个强大的平台。